import json
from dataclasses import asdict, dataclass
from pathlib import Path
from typing import Optional

import torch
from einops import rearrange
from lightning.pytorch import LightningModule
from tqdm import tqdm

from ..geometry.epipolar_lines import project_rays
from ..geometry.projection import get_world_rays, sample_image_grid
from ..misc.image_io import save_image
from ..visualization.annotation import add_label
from ..visualization.layout import add_border, hcat


@dataclass
class EvaluationIndexGeneratorCfg:
    num_target_views: int
    min_distance: int
    max_distance: int
    min_overlap: float
    max_overlap: float
    output_path: Path
    save_previews: bool
    seed: int


@dataclass
class IndexEntry:
    context: tuple[int, int]
    target: tuple[int, ...]
    overlap: Optional[str | float] = None  # choose from ["small", "medium", "large"] or a float number indicates the overlap ratio


class EvaluationIndexGenerator(LightningModule):
    generator: torch.Generator
    cfg: EvaluationIndexGeneratorCfg
    index: dict[str, IndexEntry | None]

    def __init__(self, cfg: EvaluationIndexGeneratorCfg) -> None:
        super().__init__()
        self.cfg = cfg
        self.generator = torch.Generator()
        self.generator.manual_seed(cfg.seed)
        self.index = {}

    def test_step(self, batch, batch_idx):
        b, v, _, h, w = batch["target"]["image"].shape
        assert b == 1
        extrinsics = batch["target"]["extrinsics"][0]
        intrinsics = batch["target"]["intrinsics"][0]
        scene = batch["scene"][0]

        context_indices = torch.randperm(v, generator=self.generator)
        for context_index in tqdm(context_indices, "Finding context pair"):
            xy, _ = sample_image_grid((h, w), self.device)
            context_origins, context_directions = get_world_rays(
                rearrange(xy, "h w xy -> (h w) xy"),
                extrinsics[context_index],
                intrinsics[context_index],
            )

            # Step away from context view until the minimum overlap threshold is met.
            valid_indices = []
            for step in (1, -1):
                min_distance = self.cfg.min_distance
                max_distance = self.cfg.max_distance
                current_index = context_index + step * min_distance

                while 0 <= current_index.item() < v:
                    # Compute overlap.
                    current_origins, current_directions = get_world_rays(
                        rearrange(xy, "h w xy -> (h w) xy"),
                        extrinsics[current_index],
                        intrinsics[current_index],
                    )
                    projection_onto_current = project_rays(
                        context_origins,
                        context_directions,
                        extrinsics[current_index],
                        intrinsics[current_index],
                    )
                    projection_onto_context = project_rays(
                        current_origins,
                        current_directions,
                        extrinsics[context_index],
                        intrinsics[context_index],
                    )
                    overlap_a = projection_onto_context["overlaps_image"].float().mean()
                    overlap_b = projection_onto_current["overlaps_image"].float().mean()

                    overlap = min(overlap_a, overlap_b)
                    delta = (current_index - context_index).abs()

                    min_overlap = self.cfg.min_overlap
                    max_overlap = self.cfg.max_overlap
                    if min_overlap <= overlap <= max_overlap:
                        valid_indices.append(
                            (current_index.item(), overlap_a, overlap_b)
                        )

                    # Stop once the camera has panned away too much.
                    if overlap < min_overlap or delta > max_distance:
                        break

                    current_index += step

            if valid_indices:
                # Pick a random valid view. Index the resulting views.
                num_options = len(valid_indices)
                chosen = torch.randint(
                    0, num_options, size=tuple(), generator=self.generator
                )
                chosen, overlap_a, overlap_b = valid_indices[chosen]

                context_left = min(chosen, context_index.item())
                context_right = max(chosen, context_index.item())
                delta = context_right - context_left

                # Pick non-repeated random target views.
                while True:
                    target_views = torch.randint(
                        context_left,
                        context_right + 1,
                        (self.cfg.num_target_views,),
                        generator=self.generator,
                    )
                    if (target_views.unique(return_counts=True)[1] == 1).all():
                        break

                target = tuple(sorted(target_views.tolist()))
                self.index[scene] = IndexEntry(
                    context=(context_left, context_right),
                    target=target,
                )

                # Optionally, save a preview.
                if self.cfg.save_previews:
                    preview_path = self.cfg.output_path / "previews"
                    preview_path.mkdir(exist_ok=True, parents=True)
                    a = batch["target"]["image"][0, chosen]
                    a = add_label(a, f"Overlap: {overlap_a * 100:.1f}%")
                    b = batch["target"]["image"][0, context_index]
                    b = add_label(b, f"Overlap: {overlap_b * 100:.1f}%")
                    vis = add_border(add_border(hcat(a, b)), 1, 0)
                    vis = add_label(vis, f"Distance: {delta} frames")
                    save_image(add_border(vis), preview_path / f"{scene}.png")
                break
        else:
            # This happens if no starting frame produces a valid evaluation example.
            self.index[scene] = None

    def save_index(self) -> None:
        self.cfg.output_path.mkdir(exist_ok=True, parents=True)
        with (self.cfg.output_path / "evaluation_index.json").open("w") as f:
            json.dump(
                {k: None if v is None else asdict(v) for k, v in self.index.items()}, f
            )
